Arabidopsis thaliana protein interaction network
Laboratório de Biologia Integrativa e Sistêmica (LaBIS)
Laboratório de Biologia Integrativa e Sistêmica (LaBIS)
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AT2G47000 - ( ABCB4 (ATP BINDING CASSETTE SUBFAMILY B4) ATPase coupled to transmembrane movement of substances / xenobiotic-transporting ATPase )
34 Proteins interacs with AT2G47000| Locus | Method | FSW  | Cellular Compartment Classification (C3) | Description |
|---|---|---|---|---|
AT3G62150
   | PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.4545
| Class C:plasma membrane | PGP21 (P-GLYCOPROTEIN 21) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT3G28380
| PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.6765
| Class C:plasma membrane | PGP17 (P-GLYCOPROTEIN 17) ATP BINDING / ATPASE/ ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES / NUCLEOSIDE-TRIPHOSPHATASE/ NUCLEOTIDE BINDING |
| AT2G20580
| Predictedinterologs mapping | FSW = 0.0085
| Class C:plasma membrane | RPN1A (26S PROTEASOME REGULATORY SUBUNIT S2 1A) BINDING / ENZYME REGULATOR |
| AT3G55320
| PredictedEnriched domain pairPhylogenetic profile method | FSW = 0.7095
| Class C:plasma membrane | PGP20 (P-GLYCOPROTEIN 20) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT3G28415
| PredictedEnriched domain pairPhylogenetic profile method | FSW = 0.7095
| Class C:plasma membrane | P-GLYCOPROTEIN PUTATIVE |
| AT2G36910
| PredictedShared biological functionEnriched domain pairGene fusion methodGene neighbors methodPhylogenetic profile methodCo-expression | FSW = 0.6612
| Class C:plasma membrane | ABCB1 (ATP BINDING CASSETTE SUBFAMILY B1) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES / AUXIN EFFLUX TRANSMEMBRANE TRANSPORTER/ CALMODULIN BINDING |
| AT3G28345
| PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.6765
| Class C:plasma membrane | ABC TRANSPORTER FAMILY PROTEIN |
| AT3G28860
| PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.6324
| Class C:plasma membrane | ABCB19 ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES / AUXIN EFFLUX TRANSMEMBRANE TRANSPORTER |
| AT1G02520
| PredictedEnriched domain pairPhylogenetic profile method | FSW = 0.7931
| Class C:plasma membrane | PGP11 (P-GLYCOPROTEIN 11) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT3G62870
| Predictedsynthetic growth defect | FSW = 0.0098
| Unknown | 60S RIBOSOMAL PROTEIN L7A (RPL7AB) |
| AT5G06290
| PredictedPhenotypic Enhancement | FSW = 0.0258
| Unknown | 2-CYS PRX B (2-CYSTEINE PEROXIREDOXIN B) ANTIOXIDANT/ PEROXIREDOXIN |
| AT1G10070
| PredictedbiochemicalPhenotypic Enhancement | FSW = 0.0333
| Unknown | ATBCAT-2 (ARABIDOPSIS THALIANA BRANCHED-CHAIN AMINO ACID TRANSAMINASE 2) BRANCHED-CHAIN-AMINO-ACID TRANSAMINASE/ CATALYTIC |
| AT5G49030
| PredictedPhenotypic EnhancementPhenotypic Suppression | FSW = 0.0231
| Unknown | OVA2 (OVULE ABORTION 2) ATP BINDING / AMINOACYL-TRNA LIGASE/ CATALYTIC/ ISOLEUCINE-TRNA LIGASE/ NUCLEOTIDE BINDING |
| AT5G27720
| Predictedtwo hybridinteraction prediction | FSW = 0.0272
| Unknown | EMB1644 (EMBRYO DEFECTIVE 1644) |
| AT5G48870
| Predictedtwo hybridinteraction prediction | FSW = 0.0304
| Unknown | SAD1 (SUPERSENSITIVE TO ABA AND DROUGHT 1) RNA BINDING |
| AT1G21700
| PredictedPhenotypic Suppression | FSW = 0.0181
| Unknown | ATSWI3C (SWITCH/SUCROSE NONFERMENTING 3C) DNA BINDING |
| AT1G10680
| PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.6926
| Unknown | PGP10 (P-GLYCOPROTEIN 10) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT1G10210
| Predictedbiochemical | FSW = 0.0322
| Unknown | ATMPK1 (MITOGEN-ACTIVATED PROTEIN KINASE 1) MAP KINASE/ KINASE |
| AT1G44180
| PredictedSynthetic Rescue | FSW = 0.0391
| Unknown | AMINOACYLASE PUTATIVE / N-ACYL-L-AMINO-ACID AMIDOHYDROLASE PUTATIVE |
| AT3G45950
| PredictedSynthetic Rescue | FSW = 0.0275
| Unknown | SPLICING FACTOR-RELATED |
| AT3G47290
| PredictedPhenotypic Suppression | FSW = 0.0382
| Unknown | PHOSPHOINOSITIDE-SPECIFIC PHOSPHOLIPASE C FAMILY PROTEIN |
| AT5G09290
| PredictedPhenotypic Suppression | FSW = 0.0180
| Unknown | 3(2)5-BISPHOSPHATE NUCLEOTIDASE PUTATIVE / INOSITOL POLYPHOSPHATE 1-PHOSPHATASE PUTATIVE |
| AT4G21490
| PredictedPhenotypic EnhancementPhenotypic Suppression | FSW = 0.0281
| Unknown | NDB3 NADH DEHYDROGENASE |
| AT5G60340 | PredictedPhenotypic EnhancementPhenotypic Suppression | FSW = 0.0215
| Unknown | MAOC-LIKE DEHYDRATASE DOMAIN-CONTAINING PROTEIN |
| AT3G28390
| PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.7095
| Unknown | PGP18 (P-GLYCOPROTEIN 18) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT3G28360
| PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.6848
| Unknown | PGP16 (P-GLYCOPROTEIN 16) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT1G27940
| PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.7095
| Unknown | PGP13 (P-GLYCOPROTEIN 13) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT5G46540
| PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.6765
| Unknown | PGP7 (P-GLYCOPROTEIN 7) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT4G18050
| PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.7273
| Unknown | PGP9 (P-GLYCOPROTEIN 9) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT1G28010
| PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.7095
| Unknown | PGP14 (P-GLYCOPROTEIN 14) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT4G25960
| PredictedEnriched domain pairPhylogenetic profile methodCo-expression | FSW = 0.5833
| Unknown | PGP2 (P-GLYCOPROTEIN 2) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT4G01820
| PredictedEnriched domain pairPhylogenetic profile method | FSW = 0.6926
| Unknown | PGP3 (P-GLYCOPROTEIN 3) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT1G02530
| PredictedEnriched domain pairPhylogenetic profile method | FSW = 0.7273
| Unknown | PGP12 (P-GLYCOPROTEIN 12) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
| AT4G01830
| PredictedEnriched domain pairPhylogenetic profile method | FSW = 0.7095
| Unknown | PGP5 (P-GLYCOPROTEIN 5) ATPASE COUPLED TO TRANSMEMBRANE MOVEMENT OF SUBSTANCES |
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Experimental: This means that the indicated PPI was experimentally demonstrated using Arabidopsis thaliana proteins as model of study. The experiment indicated links to the publication of which this interaction was annotated from
Predicted: The indicated PPI was proposed based on ortholgs studies. The experiment indicated links to the publication of the orthologous PPI was annotated from
FSW
FSW is the Functional Similarity Weight. It represents the proportion of interaction partners that two proteins have in commonLearn more - FSWeight top ranked cut offs
C3
Class A: The PPI is a direct evidence (experimental), the subcellular location was experimentally demonstrated and both, target and source, were indicated as expressed in same cellular compartment
Class B: The PPI is a direct evidence (experimental), the subcellular location was experimentally demonstrated but both, target and source, were indicated as expressed in different cellular compartment
Class C: Same as Class A but the PPI is predicted
Class D: Same as Class A but subcellular location was predicted. P(exp|pred) indicates the probability of this particular predicted location be experimentally demonstrated given all data available on AtPINDB
Unknown: There is no available data to calculate the C3 or the data does not fit onto any class previously described
PEP
PEP is the posterior probability of this particular PPI be experimentally demonstrated once it was predicted. For this release p = 0.0030. If they share same cell compartment p = 0.0029Learn more
How to cite
If you find AtPIN interesting and want to use it in your work please cite usAtPIN: Arabidopsis thaliana Protein Interaction Network
Marcelo M Brandao, Luiza L Dantas and Marcio C Silva-Filho
BMC Bioinformatics 2009, 10:454DOI:1471-2105/10/454
Marcelo M Brandao, Luiza L Dantas and Marcio C Silva-Filho
BMC Bioinformatics 2009, 10:454DOI:1471-2105/10/454
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